Various embodiments of the present application are directed to an IC, and associated forming methods. In some embodiments, the IC comprises a memory region and a logic region integrated into a substrate. A memory cell structure is disposed on the memory region. A plurality of logic devices is disposed on the logic region. A first logic device comprises a first logic gate electrode separated from the substrate by a first logic gate dielectric. The first logic gate dielectric is disposed along surfaces of a logic device trench of the substrate, and the first logic gate electrode is disposed on the first logic gate dielectric within the logic device trench. By arranging the first logic gate electrode within the logic device trench, metal layer loss and the resulted sheet resistance and threshold voltage variations and mismatch issues caused by the subsequent planarization process can be improved.
Legal claims defining the scope of protection, as filed with the USPTO.
1. An integrated circuit (IC) comprising: a memory region, a logic region, and a boundary region integrated into a substrate, wherein the boundary region is defined between the memory region and the logic region; a memory cell structure disposed on the memory region, comprising a pair of select gate electrodes respectively disposed over the substrate and a pair of control gate electrodes disposed on opposite sides of the pair of select gate electrodes; and a plurality of logic devices disposed on the logic region, including a first logic device configured to operate at a first voltage and comprising a first logic gate electrode separated from the substrate by a first logic gate dielectric; wherein the first logic gate dielectric is conformally disposed along sidewall and bottom surfaces of a logic device trench of the substrate, and the first logic gate electrode is conformally disposed on the first logic gate dielectric within the logic device trench; and wherein a hard mask layer is disposed within the logic device trench.
2. The IC according to claim 1 , wherein the first logic device further comprises: first and second source/drain regions in the substrate on opposite sides of the first logic gate electrode; wherein the first and second source/drain regions have top surfaces coplanar with that of the first logic gate electrode.
3. The IC according to claim 1 , wherein the first logic gate electrode comprises polysilicon.
4. The IC according to claim 1 , wherein the first logic gate dielectric comprises: a stack of oxide layers conformally disposed one on another and a high κ dielectric layer disposed directly on top of the stack of oxide layers.
5. The IC according to claim 1 , wherein the hard mask layer is disposed on the first logic gate electrode.
6. The IC according to claim 5 , further comprising an inter-layer dielectric (ILD) layer filling in a remaining space of the logic device trench above the hard mask layer.
7. The IC according to claim 1 , further comprising: a second logic device comprising a second logic gate electrode separated from the substrate by a second logic gate dielectric, wherein the second logic device is configured to operate at a second voltage smaller than the first voltage; wherein the second logic gate dielectric is disposed directly on a top surface of the substrate higher than the sidewall and bottom surfaces of the logic device trench.
8. The IC according to claim 7 , wherein the second logic gate electrode is made of metal.
9. The IC according to claim 7 , further comprises: a lower inter-layer dielectric layer disposed between the memory cell structure within the memory region and the plurality of logic devices within the logic region, wherein the lower inter-layer dielectric layer has a planar top surface even with top surfaces of the pair of control gate electrodes and the second logic gate electrode; an upper inter-layer dielectric layer overlying the lower inter-layer dielectric layer; and a contact via disposed through the upper inter-layer dielectric layer and the lower inter-layer dielectric layer reaching the first logic gate electrode.
10. The IC according to claim 7 , further comprising: a logic trench isolation structure disposed in the logic region between the first logic device and the second logic device, the logic trench isolation structure comprising a dielectric isolation structure disposed in a logic isolation trench of the substrate; wherein the logic trench isolation structure has a top surface coplanar with that of the first logic gate electrode.
11. The IC according to claim 7 , further comprising: a third logic device comprising a third logic gate electrode separated from the substrate by a third logic gate dielectric, wherein the third logic device is configured to operate at a third voltage smaller than the second voltage, and wherein the third logic gate dielectric is disposed directly on the top surface of the substrate higher than the sidewall and bottom surfaces of the logic device trench; wherein the first logic gate dielectric of the first logic device comprises a first oxide layer disposed on the substrate, a first portion of a second oxide layer disposed on the first oxide layer, and a first portion of a third oxide layer disposed on the first portion of the second oxide layer; wherein the second logic gate dielectric of the second logic device comprises a second portion of the second oxide layer disposed on the substrate, and a second portion of the third oxide layer disposed on the second portion of the second oxide layer; wherein the third logic gate dielectric of the third logic device comprises a third portion of the third oxide layer disposed on the substrate.
12. The IC according to claim 1 , wherein the pair of control gate electrodes and the pair of select gate electrodes comprise polysilicon.
13. The IC according to claim 1 , further comprising a contact etch stop layer, and an inter-layer dielectric layer stacked on the first logic gate electrode within the logic device trench.
14. An integrated circuit (IC) comprising: a logic device trench and a logic isolation trench of a substrate extending from a top surface of the substrate to a position within the substrate; a first logic device configured to operate at a first voltage and comprising a first logic gate electrode separated from the substrate by a first logic gate dielectric; a second logic device comprising a second logic gate electrode separated from the substrate by a second logic gate dielectric, wherein the second logic device is configured to operate at a second voltage smaller than the first voltage; a logic trench isolation structure disposed in the logic isolation trench and between the first logic device and the second logic device; and a hard mask layer disposed on the first logic gate electrode within the logic device trench; wherein the first logic gate dielectric is conformally disposed along bottom and sidewall surfaces of the logic device trench of the substrate, and wherein the first logic gate electrode is disposed on the first logic gate dielectric within the logic device trench, and wherein the hard mask layer is conformally disposed along bottom and sidewall surfaces of the first logic gate electrode.
15. The IC according to claim 14 , wherein the first logic gate electrode comprises polysilicon, and the second logic gate electrode is made of metal.
16. The IC according to claim 14 , wherein the logic device trench and the logic isolation trench extend from the top surface of the substrate to the same depth within the substrate.
17. An integrated circuit (IC), comprising: a substrate including a memory region, a logic region, and a boundary region defined between the memory region and the logic region; a plurality of deep trenches extending from a top surface of the substrate, including a memory isolation trench in the memory region, a logic isolation trench in the logic region, a boundary trench in the boundary region, and a logic device trench in the logic region between the logic isolation trench and the boundary trench; an isolation material disposed in the memory isolation trench, the logic isolation trench, and the boundary trench; a first logic gate dielectric and a first logic gate electrode disposed in the logic device trench; a hard mask layer disposed on the first logic gate electrode and within the logic device trench; and first and second source/drain regions disposed in the substrate on opposite sides of the logic device trench; wherein the first logic gate electrode and the hard mask layer have top surfaces coplanar with the top surface of the substrate.
18. The IC according to claim 17 , wherein the first and second source/drain regions have a top surface coplanar with that of the first logic gate electrode.
19. The IC according to claim 17 , further comprising a plurality of memory cell structures disposed on the memory region.
20. The IC according to claim 17 , wherein the first logic gate dielectric and the first logic gate electrode are conformally disposed along surfaces of the logic device trench.
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May 7, 2019
November 30, 2021
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